Knio / pynmea2

Python library for parsing the NMEA 0183 protocol (GPS)
MIT License
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gps gps-data nmea-parser nmea-protocol nmea-sentences nmea0183 pynmea2 python

pynmea2

pynmea2 is a python library for the NMEA 0183 protocol

pynmea2 is based on pynmea by Becky Lewis

The pynmea2 homepage is located at http://github.com/Knio/pynmea2

Compatibility

pynmea2 is compatable with Python 2.7 and Python 3.4+

Python version Build status Coverage status

Installation

The recommended way to install pynmea2 is with pip:

pip install pynmea2

PyPI version PyPI downloads

Parsing

You can parse individual NMEA sentences using the parse(data, check=False) function, which takes a string containing a NMEA 0183 sentence and returns a NMEASentence object. Note that the leading '$' is optional and trailing whitespace is ignored when parsing a sentence.

With check=False, parse will accept NMEA messages that do not have checksums, however it will still raise pynmea2.ChecksumError if they are present. check=True will also raise ChecksumError if the checksum is missing.

Example:

>>> import pynmea2
>>> msg = pynmea2.parse("$GPGGA,184353.07,1929.045,S,02410.506,E,1,04,2.6,100.00,M,-33.9,M,,0000*6D")
>>> msg
<GGA(timestamp=datetime.time(18, 43, 53), lat='1929.045', lat_dir='S', lon='02410.506', lon_dir='E', gps_qual='1', num_sats='04', horizontal_dil='2.6', altitude=100.0, altitude_units='M', geo_sep='-33.9', geo_sep_units='M', age_gps_data='', ref_station_id='0000')>

The NMEASentence object has different properties, depending on its sentence type. The GGA message has the following properties:

>>> msg.timestamp
datetime.time(18, 43, 53)
>>> msg.lat
'1929.045'
>>> msg.lat_dir
'S'
>>> msg.lon
'02410.506'
>>> msg.lon_dir
'E'
>>> msg.gps_qual
'1'
>>> msg.num_sats
'04'
>>> msg.horizontal_dil
'2.6'
>>> msg.altitude
100.0
>>> msg.altitude_units
'M'
>>> msg.geo_sep
'-33.9'
>>> msg.geo_sep_units
'M'
>>> msg.age_gps_data
''
>>> msg.ref_station_id
'0000'

Additional properties besides the ones explicitly in the message data may also exist.

For example, latitude and longitude properties exist as helpers to access the geographic coordinates as python floats (DD, "decimal degrees") instead of the DDDMM.MMMM ("Degrees, minutes, seconds") format used in the NMEA protocol. latitude_minutes, latitude_seconds, longitude_minutes, and longitude_seconds are also supported and allow easy creation of differently formatted location strings.

>>> msg.latitude
-19.4840833333
>>> msg.longitude
24.1751
>>> '%02d°%07.4f′' % (msg.latitude, msg.latitude_minutes)
'-19°29.0450′'
>>> '%02d°%02d′%07.4f″' % (msg.latitude, msg.latitude_minutes, msg.latitude_seconds)
"-19°29′02.7000″"

Generating

You can create a NMEASentence object by calling the constructor with talker, message type, and data fields:

>>> import pynmea2
>>> msg = pynmea2.GGA('GP', 'GGA', ('184353.07', '1929.045', 'S', '02410.506', 'E', '1', '04', '2.6', '100.00', 'M', '-33.9', 'M', '', '0000'))

and generate a NMEA string from a NMEASentence object:

>>> str(msg)
'$GPGGA,184353.07,1929.045,S,02410.506,E,1,04,2.6,100.00,M,-33.9,M,,0000*6D'

File reading example

See examples/read_file.py

import pynmea2

file = open('examples/data.log', encoding='utf-8')

for line in file.readlines():
    try:
        msg = pynmea2.parse(line)
        print(repr(msg))
    except pynmea2.ParseError as e:
        print('Parse error: {}'.format(e))
        continue

pySerial device example

See examples/read_serial.py

import io

import pynmea2
import serial

ser = serial.Serial('/dev/ttyS1', 9600, timeout=5.0)
sio = io.TextIOWrapper(io.BufferedRWPair(ser, ser))

while 1:
    try:
        line = sio.readline()
        msg = pynmea2.parse(line)
        print(repr(msg))
    except serial.SerialException as e:
        print('Device error: {}'.format(e))
        break
    except pynmea2.ParseError as e:
        print('Parse error: {}'.format(e))
        continue